Long-lived ion qubits in a microfabricated trap for scalable quantum computation
Publication
, Journal Article
Baek, SY; Mount, E; Maunz, P; Crain, S; Gaultney, D; Noek, R; Kim, J
Published in: Optics InfoBase Conference Papers
December 1, 2013
We report state detection, single qubit coherent operations and Raman sideband cooling to near the motional ground state by trapping a single 171Yb+ ion in a surface trap designed and fabricated at Sandia National Laboratories. © 2013 Optical Society of America.
Duke Scholars
Published In
Optics InfoBase Conference Papers
EISSN
2162-2701
Publication Date
December 1, 2013
Citation
APA
Chicago
ICMJE
MLA
NLM
Baek, S. Y., Mount, E., Maunz, P., Crain, S., Gaultney, D., Noek, R., & Kim, J. (2013). Long-lived ion qubits in a microfabricated trap for scalable quantum computation. Optics InfoBase Conference Papers.
Baek, S. Y., E. Mount, P. Maunz, S. Crain, D. Gaultney, R. Noek, and J. Kim. “Long-lived ion qubits in a microfabricated trap for scalable quantum computation.” Optics InfoBase Conference Papers, December 1, 2013.
Baek SY, Mount E, Maunz P, Crain S, Gaultney D, Noek R, et al. Long-lived ion qubits in a microfabricated trap for scalable quantum computation. Optics InfoBase Conference Papers. 2013 Dec 1;
Baek, S. Y., et al. “Long-lived ion qubits in a microfabricated trap for scalable quantum computation.” Optics InfoBase Conference Papers, Dec. 2013.
Baek SY, Mount E, Maunz P, Crain S, Gaultney D, Noek R, Kim J. Long-lived ion qubits in a microfabricated trap for scalable quantum computation. Optics InfoBase Conference Papers. 2013 Dec 1;
Published In
Optics InfoBase Conference Papers
EISSN
2162-2701
Publication Date
December 1, 2013